JP2017176315A5 - - Google Patents

Description

Absorbent articles

  The present invention mainly relates to an absorbent article used for an incontinence pad, and more particularly to an absorbent article using a cotton nonwoven fabric as a surface sheet.

  Conventionally, as an absorbent article for women such as an incontinence pad, panty liner (corimono sheet), sanitary napkin, cotton between a liquid-impermeable back sheet such as a polyethylene sheet or a polyethylene sheet laminated nonwoven fabric, and a surface sheet. The thing which intervened the absorber which consists of glassy pulp etc. is known.

  Since the surface sheet forms a skin contact surface, it is required to be flexible, to obtain a dry touch even after absorption of excretory fluid, and to be less irritating to the skin. . Synthetic fiber non-woven fabrics and resin mesh sheets are widely used in the field of absorbent articles, particularly in the incontinence pad field, as materials satisfying such requirements. However, the surface sheet made of synthetic fibers has a problem that it causes itchiness and rash.

  In order to solve this problem, a surface sheet made of cotton fibers (cotton) has been proposed. However, in absorbent articles, the surface sheet has high liquid permeability and allows the liquid to quickly reach the absorber. On the other hand, when ordinary absorbent cotton fibers are contained in the surface sheet, there is a problem that the surface sheet itself has a high liquid retaining property and a sticky feeling tends to remain on the surface.

  In addition, the absorbent article whose surface sheet is made of cotton fibers has the advantage that a soft touch like underwear can be realized, but as described above, when a large amount of body fluid is discharged due to its high liquid retention, It remained on the seat and caused stuffiness and rash by wearing for a long time. For this reason, in conventional absorbent articles, products using cotton fibers as the top sheet have been limited to products that can absorb a small amount of body fluid, such as a cage sheet.

  Focusing on the flexibility of such a cotton nonwoven fabric, as shown in Patent Documents 1 and 2 below, application of absorbent articles to a surface sheet has been studied. In the following Patent Document 1, a pair of side sheets provided with a surface sheet containing non-thermomelt fibers located on the skin facing surface, disposed on the skin facing surface of the surface sheet and spaced apart in the lateral direction, and the surface sheet And a heat-fusible sheet that is disposed between the absorbent body and the top sheet, and the side sheet and the heat-fusible sheet are formed by synthetic fibers containing a thermoplastic resin, An absorptive article is disclosed in which a welded portion is formed between the sheet and the thermoplastic sheet to join them together by thermal melting via the surface sheet.

  Moreover, in the following Patent Document 2, the surface sheet is composed of a cotton nonwoven fabric, and the lower layer of the surface sheet and between the absorbent body and the absorbent body have a lower fiber density and hydrophilicity than the cotton nonwoven fabric. An absorbent article is disclosed in which a large number of embosses are applied from the surface side in the laminated state with an interstitial fiber sheet interposed therebetween.

JP2013-66614A JP 2009-148628 A

  However, in the absorbent article described in Patent Document 1, the surface sheet and the heat-meltable sheet disposed on the absorber side are joined only on both sides of the surface sheet where the side sheets overlap, In the absorbent article described in Document 2, the top sheet and the heat-fusible fiber sheet disposed on the absorber side are bonded only at the portion where the heat-sealing embossing is applied. In the non-joined part with the side sheet, there is a problem that the surface sheet is liable to float with a gap between the surface sheet and the lower layer sheet, and it is difficult for body fluid to transfer from the front sheet to the lower sheet. It was. As a result, the liquid remains on the top sheet to cause a sticky feeling and the body fluid may return to the skin surface.

  Moreover, in the case of absorbing urine having a total amount of 20 cc or more and medium amount or more, there is a risk that the absorbent article described in Patent Documents 1 and 2 may retain water in the surface sheet, and retain water in the surface sheet as much as possible. I needed some ingenuity.

  By the way, in general, in order to improve the water retention of cotton nonwoven fabric, a mixture of synthetic fibers that are harder to retain water than cotton is used, but by mixing this synthetic fiber, the biggest feature of cotton nonwoven fabrics There was a problem that the feeling of texture that is.

  Therefore, the main problem of the present invention is to quickly infiltrate the moisture absorbed in the surface sheet without impairing flexibility in an absorbent article using a cotton non-woven fabric for the surface sheet in order to achieve a soft touch. .

In order to solve the above-mentioned problem, in the absorbent article in which an absorber is interposed between the top sheet and the back sheet as the present invention according to claim 1,
The absorbent article is an incontinence pad for medium amount that absorbs 20 cc or more of urine,
The topsheet is formed by applying a water-repellent agent to a spunlace nonwoven fabric made of 100% by weight of cotton fibers, and at least a portion corresponding to the excretion opening is formed with a large number of apertures penetrating the front and back, and the absorption of the topsheet A heat-fusible fiber sheet is disposed adjacent to the side of the body, and a plurality of adhesives are provided between the top sheet and the heat-fusible fiber sheet along the longitudinal direction of the absorbent article and spaced in the width direction. Part is formed, in the vicinity of the adhesive part, a compressed groove recessed from the outer surface side of the top sheet toward the absorber is formed ,
The adhesive portion extends in a straight line along the longitudinal direction of the absorbent article and is applied over the entire surface in a plurality of regions formed at intervals in the width direction.
The said compressed groove is formed in the pattern which repeats an unevenness | corrugation in the width direction of an absorbent article, The absorbent article characterized by the above-mentioned is provided.

  In the first aspect of the invention, urination due to stress incontinence that is expelled instantaneously when force is applied to the abdomen, such as when sneezing, coughing, or holding a heavy object, is attacked by sudden violent urination. It is intended for incontinence pads for medium or higher doses that absorb urine due to urge incontinence that is discharged at once without being able to endure and absorb a total urine volume of 20 cc or more. In many cases, the incontinence pad is used continuously until the second incontinence, and it is often worn after the first incontinence for a long time and discarded after urination again. Therefore, such an incontinence pad for medium amount or more is required to have a function of instantaneously absorbing and holding a predetermined amount of urine and maintaining a smooth feeling on the surface.

  In addition, incontinence pads for medium doses and above, mainly intended for incontinence that occurs when force is applied to the abdomen, do not cause urination if these conditions are not met. There are not a few cases when it is installed. For this reason, in the present absorbent article, a water-repellent agent is applied to the spunlace nonwoven fabric made of 100% by weight of cotton fibers as the top sheet, and at least a large number of apertures penetrating the front and back of the excretion opening corresponding part. The formed one is used. For this reason, by adopting a spunlace nonwoven fabric made of 100% by weight of cotton fibers, a soft touch can be obtained, and even when worn for a long time, it is difficult to cause skin troubles such as itchiness or rash. The water retention of the surface sheet, which is a problem at that time, is sufficiently improved by applying a water repellent and providing a large number of apertures. Specifically, the urine of the top sheet is not absorbed by the top sheet by the water repellent treatment, and quickly permeates from the apertures to the absorber, so that it is not retained by the top sheet. If the opening formation area is formed so as not to include the part corresponding to the excretion opening, the incontinence range may not be covered, and the urine will remain on the top sheet, and it will feel sticky. Skin troubles when wearing such as rashes are likely to occur.

  Further, in the present absorbent article, a heat-fusible fiber sheet is disposed adjacent to the side surface of the absorbent body of the top sheet, and in the longitudinal direction of the absorbent article between the top sheet and the heat-fusible fiber sheet. A plurality of adhesive portions are formed at intervals along the width direction, and in close proximity to the adhesive portions, by forming a compressed groove recessed from the outer surface side of the topsheet toward the absorber, the body fluid is contained inside To penetrate quickly. That is, since the surface sheet and the heat-fusible fiber sheet are joined by a plurality of adhesive portions, a gap is hardly formed between the surface sheet and the lower layer side sheet, and the surface sheet is a heat-fusible fiber. By closely adhering to the sheet, the body fluid absorbed by the top sheet is quickly transferred to the heat-fusible fiber sheet on the lower layer side. In addition, for the body fluid permeation hindrance due to the adhesive in the adhesive portion, this compression is formed by forming a pressing groove that is recessed from the outer surface side of the topsheet toward the absorber in the vicinity of the adhesive portion. From the sparse part of the fiber that does not form the squeezing groove, using the capillary action of the fiber, the part where the groove is formed has a fiber density relationship where the fiber density is denser than other parts, Since the body fluid is drawn into the dense portion of the fiber that has formed the compressed groove, and the body fluid is absorbed by the absorbent body in this compressed groove portion, the water retention amount in the topsheet is reduced.

Further, in the invention described in claim 1, wherein, when the bonding portion was formed by entirely applying adhesive to the absorbent longitudinally extending linearly along the area of the article, the compressed groove absorbent It is desirable to form in a pattern in which unevenness is repeated in the width direction of the article. If the compressed groove is linearly formed along the longitudinal direction of the absorbent article parallel to the bonded portion, the compressed groove and the bonded portion overlap each other due to misalignment during operation. There is a high possibility that the groove inner surface of the groove is covered with the adhesive portion over the entire length of the groove, and the permeability of the body fluid in the compressed groove may be completely lost. On the other hand, as in the present invention, when the compressed groove is formed with an uneven pattern in which the unevenness is repeated in the width direction of the absorbent article, a part of the compressed groove is formed with the adhesive portion due to a positional shift during operation. Although it may overlap, the groove bottom part of a pressing groove is not covered with an adhesion part over the whole groove length, and the permeability of a body fluid in a pressing groove can be secured.

  As the present invention according to claim 2, there is provided the absorbent article according to claim 1, wherein the squeezing groove is formed between the adjacent adhesive portions.

  In the invention according to the second aspect, since the squeezing groove is formed between the adhering portions adjacent to each other, it becomes possible to prevent a body fluid permeation failure at these adhering portions.

  As the present invention according to claim 3, there is provided an absorbent article according to any one of claims 1 and 2, wherein a separation distance between the adhesive portion and the pressing groove is within 5 mm.

  In the invention of claim 3, by setting the separation distance between the adhesive portion and the compressed groove within 5 mm, a high-density region of the fiber by the compressed groove and the adhesive portion are provided close to each other, and the body fluid by the adhesive The transmission obstacle is surely prevented.

  As the present invention according to claim 4, in the bonding portion, the adhesive is intermittently applied in a predetermined region or applied over the entire surface. Articles are provided.

  In the invention according to the fourth aspect, as a method of applying the adhesive in the bonding portion, intermittent application or entire surface application (solid application) is performed in a predetermined region. In the case of intermittent application, the body fluid permeates through the non-applied portion of the adhesive, so that the permeability of the body fluid at the bonded portion can be ensured, and the permeation obstacle of the body fluid at the bonded portion is improved. On the other hand, in the case of full-surface coating, the bonding strength between the topsheet and the heat-fusible fiber sheet is increased, so that the adhesion between the topsheet and the heat-fusible fibersheet is increased, and it is difficult for a gap to form between them. The permeability of the body fluid from the top sheet to the heat-fusible fiber sheet is improved.

  As this invention which concerns on Claim 5, the said adhesive part is formed in the range containing an excretion opening | mouth corresponding | compatible part with respect to the longitudinal direction of an absorbent article, The absorbent article in any one of Claims 1-4. Provided.

  In the invention according to claim 5, in the excretion port corresponding part, the adhering part corresponds to the excretion port corresponding part with respect to the longitudinal direction of the absorbent article in order to facilitate penetration of body fluid from the topsheet into the heat-fusible fiber sheet. It is made to form in the range including.

As this invention which concerns on Claim 6 , between the said heat-fusible fiber sheet and an absorber, the 2nd adhesion part is formed in the area | region which overlaps in the thickness direction of the said adhesion part and an absorbent article. An absorbent article according to any one of claims 1 to 5 is provided.

In the invention described in claim 6 , as the position of the second adhesive part for adhering the heat-fusible fiber sheet and the absorbent body, the adhesive part and the absorbent article for adhering the surface sheet and the heat-fusible fiber sheet. The region overlaps in the thickness direction. As a result, it becomes more difficult for the fluid to permeate through the adhesive due to the adhesive, and the body fluid transferred from the top sheet to the heat-fusible fiber sheet is easily transferred to the absorbent body.

  As described above in detail, according to the present invention, in an absorbent article using a cotton non-woven fabric for the surface sheet in order to make it soft, moisture absorbed in the surface sheet can be quickly permeated into the interior without impairing flexibility. Will be able to.

It is a partially broken developed view of the incontinence pad 1 according to the present invention. It is the II-II arrow directional view of FIG. It is an expanded sectional view of the adhesion part 20 and the pressing groove 21. FIG. It is a top view of incontinence pad 1 concerning a modification. It is an enlarged plan view of the adhesion part 20 and the pressing groove 21. FIG. It is the VI-VI line arrow directional view of FIG. It is the pattern of the adhesion part and pressing groove which are not contained in this invention. It is a VIII-VIII arrow directional view of FIG. It is sectional drawing of the incontinence pad 1 which concerns on a modification. It is a top view of incontinence pad 1 concerning a modification. It is a XI-XI line arrow directional view of FIG. 3 is an enlarged plan view of a top sheet 3. FIG. It is a development view showing a water repellent coating pattern on the surface of the top sheet.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The present invention is an incontinence pad 1 for medium amount or more suitable for absorbing a total amount of urine of 20 cc or more, and instantaneously when force is applied to the abdomen, such as when sneezing, coughing or holding a heavy object. It is particularly suitable for absorbing urine due to stress incontinence that is excreted, and urine due to urge incontinence that is suddenly discharged due to sudden violent urgency.

<Example of basic structure of incontinence pad>
As shown in FIGS. 1 and 2, the incontinence pad 1 according to the present invention forms a skin contact surface with a liquid-impermeable back sheet 2 made of a polyethylene sheet, a polypropylene sheet or the like, and quickly transmits urine and the like. Surface sheet 3 to be made, absorbent body 4 made of cotton-like pulp or synthetic pulp interposed between both sheets 2 and 3, and heat disposed adjacent to the surface of absorbent sheet 4 of surface sheet 3 It is mainly comprised from the fusible fiber sheet 6 and the side nonwoven fabrics 7 and 7 arrange | positioned along the longitudinal direction at the surface both sides, respectively. In addition, at the front and rear edge portions in the pad longitudinal direction around the absorbent body 4, the outer edge portion of the liquid-impermeable back sheet 2 and the top sheet 3 is an adhesive such as hot melt, heat seal, ultrasonic The liquid-impervious back sheet 2 and the side nonwoven fabric 7 which are joined by joining means such as a seal and extend laterally from the side edges of the absorbent body 4 at both side edges are bonded by hot melt or the like. Joined by joining means such as an agent, heat seal, ultrasonic seal, etc., an outer peripheral flap portion where the absorber 4 does not exist is formed on the outer periphery. In order to maintain the shape of the absorbent body 4 and improve the diffusibility, the absorbent body 4 may be surrounded by an encapsulating sheet (not shown) made of crepe paper or nonwoven fabric.

Hereinafter, the structure of the incontinence pad 1 will be described in detail.
As the liquid-impermeable back sheet 2, a sheet material having at least water shielding properties such as an olefin resin sheet such as polyethylene or polypropylene is used. In addition, a laminated nonwoven fabric obtained by laminating a nonwoven fabric on a polyethylene sheet or the like, or A nonwoven fabric sheet (in this case, the waterproof film and the nonwoven fabric constitute a liquid-impervious back sheet) can be used after substantially impervious to liquid imperviousness by interposing a waterproof film. In recent years, those having moisture permeability tend to be used from the viewpoint of preventing stuffiness. This water- and moisture-permeable sheet material is a microporous sheet obtained by forming a sheet by melting and kneading an inorganic filler in an olefin resin such as polyethylene or polypropylene, and then stretching in a uniaxial or biaxial direction. It is.

  In the illustrated example, the surface sheet 3 is slightly wider than the width of the absorbent body 4, and only covers the absorbent body 4, and the outer side in the width direction of the surface sheet 3 extends from the surfaces of both side portions of the surface sheet 3. It is covered with the existing side nonwoven fabric 7 (a member different from the top sheet 3).

As the side non-woven fabric 7, a non-woven fabric material subjected to appropriate water repellent treatment or hydrophilic treatment can be used depending on the purpose of preventing permeation of urine or the like or enhancing the feeling of touch. The side nonwoven fabric 7 can be made of natural fiber, synthetic fiber, regenerated fiber, or the like and formed by an appropriate processing method. Preferably, the side nonwoven fabric 7 eliminates the feeling of stickiness and prevents stuffiness. For this reason, it is preferable to use a non-woven fabric with reduced basis weight and air permeability. Specifically, it is desirable to use a non-woven fabric produced with a basis weight of 15 to 23 g / m ² , and a silicone-based or paraffin-based water repellent is coated to reliably prevent permeation of body fluids. The water-repellent treated non-woven fabric is preferably used.

  Although not shown in the drawing, a part of the side nonwoven fabrics 7 and 7 is extended sideways, and a wing-shaped flap is formed by a part of the liquid-impermeable back sheet 2 that is also extended sideways. Alternatively, the inner side portion of the side nonwoven fabric 7 may be folded back and one or more thread-like elastic elastic members may be disposed at predetermined positions so that the inner side portion of the side nonwoven fabric is brought into the surface side by the contraction force. A three-dimensional gather standing upright may be formed.

<Surface sheet 3>
The said surface sheet 3 forms the skin contact surface which is a part which covers the skin side of the absorber 4, and is comprised by the spunlace nonwoven fabric which consists of 100 weight% of cotton fibers. The spunlace nonwoven fabric has advantages such as not using an adhesive and having flexibility.

  The nonwoven fabric of the surface sheet 3 is used solely with cotton fibers and does not contain synthetic fibers. Examples of the cotton fibers include raw cotton, refined / bleached cotton fibers, or refined / bleached cotton fibers that have been dyed, refined / bleached cotton wool fibers, and yarns or fabrics that have been defibrated. Any cotton fiber such as bristles can be used, but it is preferable to use non-absorbent cotton having a slight water repellency even in the fiber state due to the natural oil of cotton wax adhering to the surface of the cotton fiber.

The basis weight of the surface sheet 3 is 20 to 40 g / m ² , preferably 27 to 34 g / m ² , more preferably 29 to 32 g / m ² , and the thickness is 0.25 to 0.50 mm, preferably 0.3. It is preferable to set it to -0.4 mm. The basis weight is calculated by measuring the weight of 5 cm × 30 cm × 10 sheets with an electronic balance and converting to square meters. The thickness is determined in accordance with JIS-L1913.

  In order to improve the liquid permeability, the surface sheet 3 is provided with a large number of apertures penetrating the front and back at least at the portion corresponding to the excretion opening. Specifically, the opening can be formed by supporting a fiber material on a mesh-like support in a hydroentanglement process during the production of spunlace. In this case, by changing the conditions of the mesh to be used, it is possible to adjust the individual hole size and the hole area ratio. Of course, the non-woven fabric after manufacture may be punched to form the openings. The hole may be provided in the entire surface sheet, but is preferably provided at least in the excretion opening corresponding part and in the vicinity thereof. Preferably, it includes a portion corresponding to the excretion port, 15% or more of the absorber length in the product length direction, 50% or more of the width of the absorber in the product width direction, more preferably a portion corresponding to the excretion port, And 50% or more of the absorber length and 70% or more of the absorber width in the product width direction. When the formation area of the opening is less than 15% of the absorbent body length in the product length direction and less than 50% of the absorbent body width in the product width direction, a situation in which the incontinence range cannot be covered occurs. The urine remains on the top sheet 3 and a sticky feeling is felt, and skin troubles such as itchiness and rash are likely to occur. By using the surface sheet 3 having at least a portion corresponding to the excretion opening formed with a large number of apertures penetrating the front and back, body fluid can quickly permeate the surface sheet through the aperture, The problem of liquid residue is improved.

  As shown in FIG. 12, the opening 10 is formed in a vertically long shape that is long in the longitudinal direction of the incontinence pad 1. For this reason, since it becomes easy to permeate | transmit a liquid rather than a circular opening, urine becomes easy to pass the surface sheet 3 through this opening 10, and the water retention to the surface sheet 3 reduces. Further, when the urine passes through the opening 10, the liquid passes through while being deformed in the longitudinal direction, so that the diffusion direction of the urine can be controlled in the longitudinal direction of the pad, the lateral diffusion is suppressed, and the lateral leakage is difficult. In the case of a spunlace, the shape of the opening is difficult to be uniform, but the shape of the opening 10 is generally a rectangular shape, a long hole shape with a corner or an elliptical shape.

The dimension of the opening 10 is such that the length L1 of the incontinence pad 1 in the longitudinal direction is 1.0 to 4.0 mm, preferably 1.5 to 3.0 mm. The length L2 is 0.5 to 1.5 mm, preferably 0.5 to 1.0 mm. If the size of the aperture 10 is less than 0.5 mm, urine does not easily pass through, and it is difficult to form a clear aperture due to fiber fluffing. If the maximum size of the aperture 10 exceeds 4.0 mm, the liquid from the aperture 10 This causes the surface of the absorber 4 constituting material to be exposed. The ratio of L1 to L2 (L1 / L2) is 1.2 to 5.0, preferably 2.0 to 3.0. The area A of the opening 10 is 0.9 to 3.0 mm ² , preferably 0.9 to ^2.5 mm ² . Furthermore, the open area ratio is 15 to 45%, preferably 17 to 30%, more preferably 18 to 25%. The dimension of the opening 10 does not need to be uniform over the whole, and can be formed in any size within the above range.

  As shown in FIG. 12, the top sheet 3 is made of the cotton fibers and extends along the longitudinal direction of the incontinence pad 1 and is formed with a plurality of vertical bars 11, 11. A number of horizontal stripes 12, 12... Are formed which extend along the width direction of the incontinence pad 1 and are spaced apart in the longitudinal direction and connect the adjacent vertical stripes 11, 11. And the opening 10 is formed in a portion surrounded by the horizontal stripes 12.

  The width W1 of the vertical bars 11 is 0.5 to 2.5 mm, preferably 0.8 to 2.3 mm, and the width W2 of the horizontal bars 12 is 0.2 to 1.6 mm, preferably It is good to set it as 0.3-1.4 mm. The ratio of the widths W1 and W2 (W1 / W2) is 1.2 to 2.0, preferably 1.5 to 2.0. By making the width W1 of the vertical stripe 11 larger than the width W2 of the horizontal stripe 12, liquid diffusion in the longitudinal direction of the incontinence pad 1 along the vertical stripe 11 is likely to occur.

  The vertical streaks 11 are formed with a higher fiber density and higher density than the horizontal streaks 12. As a result, only the 11 vertical muscles come into contact with the skin, and by reducing the contact area with the skin, it is difficult to cause skin troubles such as itchiness or rash even when worn for a long time, and at the same time incontinence The stickiness can be reduced later. In addition, when urine passes through the top sheet 3, diffusion of the incontinence pad 1 in the longitudinal direction along the relatively high-density longitudinal muscles 11 tends to occur due to the capillary action of the fibers. Furthermore, since the diffusion direction of urine passing through the opening 10 and the urine penetrating the top sheet 3 coincide with the longitudinal direction of the incontinence pad 1, the top sheet 3 is drawn into the urine passing through the opening 10. The liquid residue of the top sheet 3 is suppressed as much as possible.

  The fiber amount can be measured in accordance with JIS P8207 “Paper pulp screening test method”. The density can be measured according to JIS P8118 “Testing methods for thickness and density”.

  A water repellent is externally applied to the top sheet 3. As the water repellent, among known ones such as paraffin and silicon, those that are less irritating to the skin can be appropriately selected and used, but glyceryl stearate, stearamide, zinc stearate, It is more preferable to select and use fats and oils with less irritation such as calcium stearate, diethanolamide stearate, magnesium stearate and the like. Among them, glyceryl stearate is particularly preferable. When using the water repellent which consists of a glyceryl stearate in the incontinence pad 1, it is preferable that the application quantity shall be 0.05-0.30 weight part with respect to 100 weight part of fibers (in the case of double-sided application, it is double-sided. Total coating amount). A more preferable coating amount is 0.08 to 0.25 parts by weight. If the applied amount of the water repellent is less than 0.05 parts by weight, the water repellent effect may be insufficient. If it exceeds 0.30 parts by weight, the water repellency is too high, making it difficult for moisture to permeate.

  The water repellent may be applied only to the skin contact surface, or may be applied to both the skin contact surface and the surface on the absorber 4 side, but at least the water absorption obtained from the water absorption test described below. However, 0.03 g or less, preferably 0.02 g or less is preferable.

  The water absorption amount of the top sheet 3 is determined by the following procedure. (1) Prepare a 10 cm square sample and measure the weight (A). (2) Three sheets of 10 cm square filter paper are placed with the smooth side facing up, and the sample is set thereon. (3) Drop 3 ml of room temperature tap water on the set sample and leave it for 5 minutes. (4) Measure the weight of the sample after standing for 5 minutes (B). (5) The water absorption amount (water retention amount) of the top sheet 3 is obtained from (B)-(A) = water absorption amount (g).

  In particular, it is more preferable that the water absorption of the surface of the top sheet 3 on the absorber 4 side is higher than the water absorption of the skin contact surface. Accordingly, the water absorption on the skin contact surface side (JIS L1907 birec method) is 0 mm to 5 mm, preferably 0 mm to 2 mm, and the water absorption on the surface of the absorbent body 4 (JIS L1907 birec method) is 0 mm to 10 mm. In particular, the thickness is preferably about 2 mm to 4 mm. Such a difference in water absorption can be easily obtained by applying a water repellent only to the skin contact surface of the top sheet 3, but a water repellent can also be applied to both sides of the top sheet 3. In that case, a smaller amount than the skin contact surface is applied to the surface on the absorber 4 side. Even when the water repellent is applied only to the skin contact surface of the topsheet 3, the surface on the absorber 4 side also has water repellency depending on the thickness and basis weight. Whether the application surface of the water repellent is one side, or both sides, or the ratio of the application amount of both sides when making both sides, along with the conditions such as the thickness, basis weight, aperture, etc. of the surface sheet 3, It selects suitably so that liquid permeability and hygroscopic property can be maintained with sufficient balance.

  As the method for applying the water repellent, known methods such as transfer, spraying, brushing, impregnation, and dipping can be appropriately used. In the case where there is a difference in water absorption between both surfaces of the sheet, a transfer coating method can be preferably used.

The water repellent is preferably applied over the entire surface from the viewpoint of production efficiency, but it may be applied at least to the excretion opening corresponding part H, and may be applied only to the part receiving the excretion liquid. For example, as shown in FIG. 13A, a water repellent application portion 40 may be provided except for both sides in the width direction. In addition, as shown in FIG. 13B, the water repellent application portion 40 may be provided only in the center in the width direction and in the middle in the front-rear direction.
<Absorber 4>
The absorbent body 4 is capable of absorbing and retaining urine, and a powdery superabsorbent polymer dispersed in a fluffy pulp fiber is used. The said absorber 4 consists only of a pulp fiber and a super absorbent polymer, and does not contain a synthetic fiber.

  Examples of the pulp fiber include cellulose fibers such as chemical pulp obtained from wood and dissolved pulp, and artificial cellulose fibers such as rayon and acetate. Softwood pulp having a longer fiber length functions than hardwood pulp. And is preferably used in terms of price.

The basis weight of the pulp fiber is 75 to 300 g / m ² , preferably 155 to 270 g / m ^2, and the basis weight of the superabsorbent polymer is 85 to 185 g / m ² , preferably 100 to 165 g / m ² . good to the m ^2.

  Examples of the superabsorbent polymer include a cross-linked polyacrylate, a self-crosslinked polyacrylate, a saponified acrylate-vinyl acetate copolymer cross-linked product, a cross-linked isobutylene / maleic anhydride copolymer, Examples include cross-linked polysulfonates, and partially cross-linked water-swellable polymers such as polyethylene oxide and polyacrylamide. Among these, those based on acrylic acid or acrylate that are excellent in water absorption and water absorption speed are preferred. In the production process, the superabsorbent polymer having the water-absorbing performance can be adjusted in absorption capacity (water-absorbing power) and absorption rate by adjusting the crosslinking density and the crosslinking density gradient.

  The ratio of the pulp fiber to the superabsorbent polymer is: pulp fiber: superabsorbent polymer = 70-30 wt%: 30-70 wt%, preferably 62-45 wt%: 38-55 wt%, more preferably 60 to 50% by weight: 40 to 50% by weight is preferable.

  In this incontinence pad 1, the pulp fiber and the superabsorbent polymer are each configured with a predetermined basis weight, and the absorbent in which the pulp fiber and the superabsorbent polymer are configured with a predetermined weight ratio is used. Even when it is discharged instantaneously, the pulp fiber having a high absorption rate immediately absorbs urine immediately after urination, and thereafter, the urine absorbed by the pulp fiber is gradually absorbed and retained by the superabsorbent polymer. As a result, it is possible to completely prevent the return to the surface.

  On the other hand, when the pulp fiber is more than 70% by weight and the superabsorbent polymer is less than 30% by weight, the content ratio of the pulp fiber increases, so that the liquid retainability of the absorbent body 4 is low, and the surface sheet after urination 3 is likely to reverse. On the other hand, if the pulp fiber is less than 30% by weight and the superabsorbent polymer is more than 70% by weight, the content ratio of the superabsorbent polymer becomes high, so that the initial absorption rate immediately after urination is slow, and the absorber from the top sheet 3 The urine transfer to 4 is not smoothly performed, and liquid residue is likely to be generated in the surface sheet 3 immediately after urination.

  Moreover, since urine is reliably absorbed and held in the absorbent body immediately after urination and no liquid remains on the top sheet, it is possible to suppress the spread of the urine diffusion range in the top sheet.

  The absorbent body 4 is desirably surrounded by a wrapping sheet such as crepe paper for shape retention and polymer powder retention.

<Heat-bondable fiber sheet 6>
In the incontinence pad 1, a heat-fusible fiber sheet 6 is interposed between the surface sheet 3 adjacent to the surface of the surface sheet 3 on the absorber 4 side and the absorber 4. As the heat-fusible fiber constituting the heat-fusible fiber sheet 6, any fiber that melts by heating and exhibits adhesiveness can be used. This heat-fusible fiber may be composed of a single fiber or a composite fiber in which two or more kinds of synthetic resins are combined. Specifically, polyolefin-based single fibers such as polyethylene, polypropylene and polyvinyl alcohol, polyethylene terephthalate / polyethylene, polyethylene terephthalate / polypropylene, polypropylene / polyethylene, polyethylene terephthalate-ethylene / polypropylene copolymer, low melting point polyester-polyester, etc. A core-sheath type composite fiber or an eccentric core-sheath type composite fiber whose sheath part is made of a relatively low melting point, or a part of each component consisting of polyethylene terephthalate / polypropylene, polyethylene terephthalate / nylon, polypropylene / polyethylene on the surface Heat split by heat shrinkage of one component consisting of exposed split composite fiber or polyethylene terephthalate / ethylene-propylene copolymer Or the like can be used split type composite fibers. In this case, a core-sheath type composite fiber is preferable when importance is attached to productivity and dimensional stability, and an eccentric type composite fiber is preferable if importance is attached to the volume feeling of a nonwoven fabric. Further, if the softness is considered as important, when a split type composite fiber or a heat split type composite fiber is used, each component can be easily divided into ultrafine fibers at the time of high-pressure water flow treatment in which the fibers are entangled.

The heat-fusible fiber sheet 6, texture, from the viewpoint of skin resistance, the basis weight 10 to 50 g / m ^2, more preferably in the range of 20 to 40 g / m ^2, the thickness of the fiber, 4 It is desirable to use those having -7 dt, preferably 5-6 dt.

  It is preferable that the heat-fusible fiber sheet 6 has a lower fiber density (coarse mesh) and hydrophilicity than the cotton nonwoven fabric constituting the surface sheet 3. In order to impart hydrophilicity to the heat-fusible fiber sheet 6, a non-woven fabric obtained by surface-treating synthetic fibers such as polyethylene or polypropylene such as olefin, polyester, or polyamide with a hydrophilizing agent is used. be able to. Among these materials, it is desirable to use an air-through nonwoven fabric or a spunbonded nonwoven fabric. By using a relatively soft and bulky air-through non-woven fabric or spunbonded non-woven fabric, cushioning properties are imparted and a feeling of wearing is improved, and water retention ability is enhanced.

  The heat-fusible fiber sheet 6 is desirably formed at a lower fiber density than the cotton nonwoven fabric constituting the top sheet 3. As a result, when the compressed groove 21 is applied, the cotton fibers of the cotton non-woven fabric can easily enter the heat-fusible fiber sheet 6, and body fluid can quickly penetrate from the cotton non-woven fabric into the heat-fusible fiber sheet 6. Will come to be.

  As shown in FIGS. 1 and 2, the planar size of the heat-fusible fiber sheet 6 is formed substantially equal to that of the top sheet 3. That is, the incontinence pad 1 is disposed over the entire length from the front end to the rear end of the incontinence pad 1, and slightly wider than the width of the absorber 4 in the width direction of the incontinence pad 1. The width of the surface sheet 3 and the heat-fusible fiber sheet 6 is limited to cover the absorbent body 4, and the outer side in the width direction of the surface sheet 3 and the heat-fusible fiber sheet 6 is a side nonwoven fabric 7 (surface sheet) that extends from both side surfaces of the surface sheet 3. 3 and a member other than the heat-fusible fiber sheet 6).

<Adhesion part and pressing groove>
In the incontinence pad 1, a plurality of adhesive portions 20, 20... Are formed between the surface sheet 3 and the heat-fusible fiber sheet 6 along the longitudinal direction of the incontinence pad 1 and at intervals in the width direction. In the vicinity of the adhesive portion 20, a pressing groove 21 that is integrally recessed from the outer surface side of the top sheet 3 to the absorber 4 is formed.

  In this incontinence pad 1, the surface sheet 3 and the heat-fusible fiber sheet 6 are joined by a plurality of adhesive portions 20, 20. Since the surface sheet 3 is in close contact with the heat-fusible fiber sheet 6, the body fluid absorbed by the surface sheet 3 quickly moves to the lower-layer heat-fusible fiber sheet 6. . In addition, for the body fluid permeation hindrance due to the adhesive in the adhesive part 20, the compressed groove 21 that is recessed from the outer surface side of the topsheet 3 toward the absorber 4 is formed in the vicinity of the adhesive part 20. Thus, a fiber in which the compressed groove 21 is formed is formed so that the density of the fiber is denser than the other part, and the compressed groove 21 is not formed by utilizing the capillary phenomenon of the fiber. Since the bodily fluid is drawn into the dense portion of the fiber forming the compressed groove 21 from the sparse part, and the body fluid is absorbed by the absorbent body 4 in this compressed groove 21 portion, the amount of water retained in the top sheet 3 Will decrease.

  The adhesive portion 20 includes a hot melt adhesive application portion formed between the surface sheet 3 and the heat-fusible fiber sheet 6 in order to join the surface sheet 3 and the heat-fusible fiber sheet 6. It is. When the adhesive is applied to the entire surface, the range where the adhesive is applied is the adhesive portion 20, and when the adhesive application portion and the non-application portion are mixed, the adhesive application portion The predetermined range that surrounds is the adhesive portion 20.

  The adhesive portion 20 is preferably formed in a strip shape of two or more strips along the longitudinal direction of the incontinence pad 1 and spaced in the width direction. In the example shown in FIG. 1, the incontinence pad 1 is formed in four strips along the longitudinal direction and spaced in the width direction. The spacing in the pad width direction between adjacent adhesive portions 20 and 20 may be equal, but in the example of FIG. 1, the incontinence pad 1 is formed relatively wide at the center in the width direction and relatively narrow at both sides thereof. Yes. The reason why a relatively wide space is provided in the center portion in the width direction is to ensure the permeability of the body fluid in the center portion in the width direction.

  The adhesive part 20 may be intermittent application in which the adhesive application part and the non-application part are mixed in a predetermined area, or the adhesive is applied over the entire surface without the non-application part. Alternatively, it may be applied over the entire surface (solid coating). Examples of adhesive coating include spiral coating, porous coating, spray coating, curtain coating, and slot coating. In the example shown in FIG. 1, an adhesive is spirally applied. In the case of intermittent application, the permeability of the body fluid in the adhesive part 20 can be ensured through the non-application part of the adhesive, and the permeation obstacle of the body fluid in the adhesive part 20 is improved. On the other hand, in the case of the entire surface coating, the bonding strength between the surface sheet 3 and the heat-fusible fiber sheet 6 is increased, the adhesion between the surface sheet 3 and the heat-fusible fiber sheet 6 is increased, and there is a gap between them. And the permeability of body fluid from the top sheet 3 to the heat-fusible fiber sheet 6 is improved.

  The adhesive portion 20 is formed in a range including the excretion opening corresponding portion with respect to the longitudinal direction of the incontinence pad 1. In the example shown in FIG. 1, the incontinence pad 1 is formed so as to connect the front and rear edges of the incontinence pad 1 over the entire length of the incontinence pad 1. Thereby, the surface sheet 3 and the heat-fusible fiber sheet 6 can be in close contact with each other over the entire length, and the permeability of the body fluid from the surface sheet 3 to the heat-fusible fiber sheet 6 can be increased over the entire length of the sheet. It becomes like this.

  Further, as shown in FIG. 4, the adhesive portion 20 includes a portion corresponding to the excretion opening and is slightly longer in the front and rear directions so that the adhesive portion 20 is not formed at the front and rear end portions of the incontinence pad 1, respectively. It can also be. If the adhesion between the surface sheet 3 and the heat-fusible fiber sheet 6 by the adhesive portion 20 is enhanced at least at the excretion opening-corresponding portion, the permeability can be secured in the incontinence range. It is preferable that the adhesive part 20 at this time is in a slightly longer range before and after the pressing groove 21.

In this incontinence pad 1, since the surface sheet 3 is used in which a large number of apertures 10, 10... Penetrating the front and back are formed at least in the portion corresponding to the excretion opening, the adhesive constituting the adhesive portion 20 is used as the surface sheet. It is desirable to use a hot melt adhesive having a predetermined condition as an adhesive constituting the adhesive portion 20 so as not to come out to the surface through the three apertures 10. As the hot-melt adhesive having a basis weight from 1 to 20 g / m ^2, and it is preferably applied in 2~9g / m ^2. The type of hot melt adhesive is not particularly limited, but olefins such as polyethylene, polypropylene, and ethylene-α-olefin copolymers, ethylene-vinyl acetate copolymers, polyamides, styrene-butylene-styrene copolymers. And a thermoplastic elastomer system such as a styrene-isoprene-styrene copolymer is preferably used.

  The pressing groove 21 has an embossing roll and a surface provided with a number of embossing protrusions protruding on the peripheral surface in a state where the heat-fusible fiber sheet 6 and the surface sheet 3 are laminated on the skin side of the absorbent body 4. By passing between a flat anvil roll, the surface sheet 3 is squeezed from the surface side, and at the same time, the surface sheet 3 and the heat-fusible fiber sheet 6 are heat-fused. By joining by wearing, the member from the outer surface side of the top sheet 3 to the absorber 4 is integrally depressed to the non-skin side. Since the surface sheet 3 is made of a cotton non-woven fabric, it is difficult to retain the recessed groove by pressing alone, but when the surface sheet 3 is compressed together with the heat-fusible fiber sheet 6, the melted heat-fusible fiber penetrates the surface sheet 3. Then, since the surface sheet 3 is fused, the compressed state is maintained.

  The pressing groove 21 is formed in the excretion opening corresponding part and in the vicinity thereof. The said compression groove | channel 21 can be formed along the longitudinal direction of the incontinence pad 1, respectively in the both sides of the excretion opening corresponding | compatible part. In the example shown in FIG. 1, in the width direction so as to connect a portion extending linearly along the longitudinal direction of the incontinence pad 1 and the front and rear end portions of the both sides of the incontinence pad 1, respectively. It is formed in a substantially oval shape or oval shape in a plan view surrounding the periphery of the excretory opening corresponding portion, which is composed of a portion extending along. In the compressed groove 21, a portion extending linearly along the longitudinal direction of both side portions is formed between the adjacent adhesive portions 20, 20, and connecting the front and rear end portions of the linearly extending portion along the width direction. The extending part is formed so as to cross the adhesive part 20.

  The compressed groove 21 is between adjacent adhesive portions 20 and 20 separated in the pad width direction, and close to the adhesive portion 20 at a separated portion of the adhesive portions 20 and 20 where the adhesive portion 20 is not formed. It is desirable to form. By forming between the adhering portions 20 and 20 adjacent to each other, it is possible to simultaneously prevent the permeation of body fluid due to the adhering portions 20 and 20.

  Moreover, it is preferable to form the said adhesion part 20 and the pressing groove 21 so that it may have the predetermined separation distance U. FIG. Specifically, as shown in FIGS. 1 and 3, the separation distance U between the adhesive portion 20 and the compressed groove 21 is within 5 mm, preferably within 3 mm, and more preferably within 1 mm and 0.5 mm or more. Good. As a result, a high-density region is formed by the compressed grooves 21 at a predetermined position close to the bonding portion 20, so that a body fluid penetration failure from the topsheet 3 to the heat-fusible fiber sheet 6 occurs at the bonding portion 20. Even if it occurs, the body fluid is drawn toward the compressed groove 21 by the capillary phenomenon due to the difference in fiber density, and is absorbed and held by the absorbent body 4 through the compressed groove 21.

  The separation distance U can be measured by the following procedure. After spraying cold spray from the outer surface side of the surface sheet 3 and solidifying the adhesive, the surface sheet 3 is peeled off, and then powdered colored powder (toner) is sprayed on the adhesive portion 20 to adhere to the adhesive. The distance between the end portion of the adhesive near the pressing groove 21 and the end portion of the pressing groove 21 near the bonding portion 20 is measured with a ruler or the like.

  The compressed groove 21 may be partially overlapped with the adhesive portion 20 as long as most of the groove width direction and the longitudinal direction of the groove do not overlap the adhesive portion 20. Specifically, as shown in FIG. 1, in the adhesive portion 20 formed by spirally applying an adhesive, even if the linearly extending pressing groove 21 overlaps the adhesive portion 20, the bottom surface of the pressing groove 21 and Since the side surfaces are not completely covered by the adhesive application part of the adhesive part 20, the permeability of the body fluid in the compressed groove 21 is ensured. The ratio of the pressing groove 21 overlapping the bonding portion 20 is desirably less than 50%, preferably less than 30%, with respect to the length of the pressing groove 21 extending in the pad longitudinal direction.

  On the other hand, as shown in FIG. 5 and FIG. 6, the adhesive portion 20 extends linearly along the longitudinal direction of the incontinence pad 1 and the adhesive is formed in a plurality of belt-like regions formed at intervals in the width direction. When applied over the entire surface, the compressed groove 21 is preferably formed in a pattern in which irregularities are repeated in the width direction of the incontinence pad 1. If the squeezing groove is linearly formed along the longitudinal direction of the incontinence pad 1 parallel to the adhesive portion, the squeezing groove may be caused by misalignment during operation, as shown in FIGS. There is a high possibility that the inner surface of the compressed groove is covered with the bonded portion over the entire length of the groove, and the permeability of the body fluid in the compressed groove may be completely lost. On the other hand, as shown in FIG. 5 and FIG. 6, when the pressing groove 21 is formed in a concavo-convex pattern in which the concavo-convex pattern repeats in the width direction of the incontinence pad 1, the squeezing groove 21 is caused by misalignment during operation. May overlap with the adhesive part 20, but the groove bottom of the compressed groove 21 is not covered with the adhesive part 20 over the entire length of the groove, and the permeability of body fluid in the compressed groove 21 can be secured. It becomes like this. The pattern in which the compressed groove 21 repeats unevenness in the width direction of the incontinence pad 1 means that a portion protruding to one side in the width direction and a portion protruding to the other side in the width direction with respect to the pad longitudinal direction line It is a pattern formed alternately.

  Next, the adhesion between the heat-fusible fiber sheet 6 and the absorbent body 4 will be described. As shown in FIG. 9, between the heat-fusible fiber sheet 6 and the absorbent body 4, A second adhesive portion 22 can be formed in a region overlapping the portion 20 and the incontinence pad 1 in the thickness direction. That is, the second adhesive portion 22 that joins the heat-fusible fiber sheet 6 and the absorber 4 is formed only at a position that overlaps the adhesive portion 20 that joins the topsheet 3 and the heat-fusible fiber sheet 6. It is preferable to do this, and it is preferable not to form any part other than the position overlapping the bonding portion 20. As a result, the penetration of body fluid due to the adhesive is less likely to occur, and the body fluid that has migrated from the topsheet 3 to the heat-fusible fiber sheet 6 is likely to migrate to the absorbent body 4.

  As shown in FIGS. 10 and 11, as an incontinence pad 1 </ b> A according to the modification, at least a central portion in the pad width direction of the excretion opening corresponding portion and a squeeze along the longitudinal direction in the middle portion in the longitudinal direction The groove 21A can be formed. The pressing groove 21A in this case receives the discharged urine, temporarily stores the urine in the pressing groove 21A, induces urine diffusion in the front-rear direction, and absorbs the urine into the absorbent body 4 To prevent side leakage. This compressed groove 21A is formed so as to be integrally recessed from the outer surface side of the topsheet 3 to the absorbent body 4 in the vicinity of the adhesive portion 20, similarly to the compressed groove 21 according to the above-described embodiment. Yes.

  21 A of said pressing grooves may be formed by pressing together the member from the outer surface side of the surface sheet 3 to the absorber 4 from the outer surface side, and the pressing groove 21A of the said absorber 4 is scheduled to form previously. Formed by squeezing a member extending from the outer surface side of the topsheet 3 to the absorbent body 4 along the absorbent body concave portion, with the absorbent body concave portion recessed toward the non-skin side surface formed in the part. But you can. The latter is desirable for reasons such as preventing deformation of the compressed groove 21A due to leg pressure.

  By providing the compressed groove 21A, the transfer of body fluid from the topsheet 3 to the absorbent body 4 is promoted in the excretion opening corresponding part. Although not shown, in addition to the pressing groove 21A, it is also possible to form the pressing grooves 21 on both side portions of the excretory port corresponding portion described above.

[Other examples]
As the absorber 4, an absorber having a multilayer structure in which a plurality of layers are stacked may be used. As a specific example, an absorber having a two-layer structure composed of an upper layer absorber and a lower layer absorber can be exemplified. The multilayer structure absorbent body may be a structure in which absorbent bodies having the same planar shape are laminated, or the upper layer side absorbent body may have a structure in which the width dimension and the longitudinal dimension are smaller than the lower layer side absorbent body. For example, in the two-layer structure absorbent body, the upper layer absorbent body may have a structure in which the middle and high portions of the high absorbent body are formed on the skin side in the portion corresponding to the excretion opening. In this case, it is preferable that the pressing groove 21 is applied to the lower layer absorbent body so as to surround the middle-high portion (upper layer absorbent body). Moreover, the said pressing groove 21 can also be provided so that all the absorbers of a multilayer structure may be squeezed integrally, and it may provide so that only the one part absorber laminated | stacked on the upper layer side may be squeezed. You can also.

  DESCRIPTION OF SYMBOLS 1 ... Incontinence pad, 2 ... Liquid impervious back sheet, 3 ... Front sheet, 4 ... Absorber, 6 ... Heat-fusible fiber sheet, 7 ... Side nonwoven fabric, 10 ... Opening, 11 ... Longitudinal line, 12 ... Horizontal stripes, 20 ... bonded portion, 21 · 21A ... pressed groove, 22 ... second bonded portion

Claims (6)

In an absorbent article in which an absorber is interposed between the top sheet and the back sheet,
The absorbent article is an incontinence pad for medium amount that absorbs 20 cc or more of urine,
The topsheet is formed by applying a water-repellent agent to a spunlace nonwoven fabric made of 100% by weight of cotton fibers, and at least a portion corresponding to the excretion opening is formed with a large number of apertures penetrating the front and back, and the absorption of the topsheet A heat-fusible fiber sheet is disposed adjacent to the side of the body, and a plurality of adhesives are provided between the top sheet and the heat-fusible fiber sheet along the longitudinal direction of the absorbent article and spaced in the width direction. Part is formed, in the vicinity of the adhesive part, a compressed groove recessed from the outer surface side of the top sheet toward the absorber is formed ,
The adhesive portion extends in a straight line along the longitudinal direction of the absorbent article and is applied over the entire surface in a plurality of regions formed at intervals in the width direction.
The said compressed groove is formed in the pattern which repeats an unevenness | corrugation in the width direction of an absorbent article, Absorbent article characterized by the above-mentioned.   The absorbent article according to claim 1, wherein the compressed groove is formed between the adjacent adhesive portions.   The absorptive article according to any one of claims 1 and 2 whose separation distance of said adhesion part and said pressing slot is less than 5 mm.   The absorbent article according to any one of claims 1 to 3, wherein an adhesive is intermittently applied in a predetermined region or applied over the entire surface at the adhesive portion.   The said adhesion part is an absorbent article in any one of Claims 1-4 currently formed in the range containing an excretion opening corresponding | compatible part with respect to the longitudinal direction of an absorbent article. It is between the heat-fusible fiber sheet and the absorbent body, according to the a region overlapping in the thickness direction of the adhesive portion absorbent article according to claim 1-5 or the second adhesive portion is formed Absorbent articles.